C - Cross
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C - Cross
Score : $300$ points
Problem Statement
We have a grid with $H$ horizontal rows and $W$ vertical columns. We denote by $(i, j)$ the cell at the $i$-th row from the top and $j$-th column from the left of the grid.
Each cell in the grid has a symbol # or . written on it. Let $C[i][j]$ be the character written on $(i, j)$. For integers $i$ and $j$ such that at least one of $1 \leq i \leq H$ and $1 \leq j \leq W$ is violated, we define $C[i][j]$ to be ..
$(4n+1)$ squares, consisting of $(a, b)$ and $(a+d,b+d),(a+d,b-d),(a-d,b+d),(a-d,b-d)$ $(1 \leq d \leq n, 1 \leq n)$, are said to be a cross of size $n$ centered at $(a,b)$ if and only if all of the following conditions are satisfied:
- $C[a][b]$ is
#. - $C[a+d][b+d],C[a+d][b-d],C[a-d][b+d]$, and $C[a-d][b-d]$ are all
#, for all integers $d$ such that $1 \leq d \leq n$, - At least one of $C[a+n+1][b+n+1],C[a+n+1][b-n-1],C[a-n-1][b+n+1]$, and $C[a-n-1][b-n-1]$ is
..
For example, the grid in the following figure has a cross of size $1$ centered at $(2, 2)$ and another of size $2$ centered at $(3, 7)$.
The grid has some crosses. No # is written on the cells except for those comprising a cross.
Additionally, no two squares that comprise two different crosses share a corner. The two grids in the following figure are the examples of grids where two squares that comprise different crosses share a corner; such grids are not given as an input. For example, the left grid is invalid because $(3, 3)$ and $(4, 4)$ share a corner.
Let $N = \min(H, W)$, and $S_n$ be the number of crosses of size $n$. Find $S_1, S_2, \dots, S_N$.
Constraints
- $3 \leq H, W \leq 100$
- $C[i][j]$ is
#or.. - No two different squares that comprise two different crosses share a corner.
- $H$ and $W$ are integers.
Input
The input is given from Standard Input in the following format:
Output
Print $S_1, S_2, \dots$, and $S_N$, separated by spaces.
5 9
#.#.#...#
.#...#.#.
#.#...#..
.....#.#.
....#...#
1 1 0 0 0
As described in the Problem Statement, there are a cross of size $1$ centered at $(2, 2)$ and another of size $2$ centered at $(3, 7)$.
3 3
...
...
...
0 0 0
There may be no cross.
3 16
#.#.....#.#..#.#
.#.......#....#.
#.#.....#.#..#.#
3 0 0
15 20
#.#..#.............#
.#....#....#.#....#.
#.#....#....#....#..
........#..#.#..#...
#.....#..#.....#....
.#...#....#...#..#.#
..#.#......#.#....#.
...#........#....#.#
..#.#......#.#......
.#...#....#...#.....
#.....#..#.....#....
........#.......#...
#.#....#....#.#..#..
.#....#......#....#.
#.#..#......#.#....#
5 0 1 0 0 0 1 0 0 0 0 0 0 0 0